A controller for controlling a cursor includes an identifying module for identifying at least one of a first period when a cursor is in motion and a second period when the cursor is not in motion, and a calibrating module for calibrating an input parameter signal using a first hands-off test during the first period and a second hands-off test, different than the first hands-off test, during the second period.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A calibrating module for a controller for a cursor, comprising: a module which: detects a hands-off condition by sampling an input parameter signal using a first hands-off test during a first period when a cursor is in motion, and sampling the input parameter signal using a second hands-off test which is different than said first hands-off test, during a second period when said cursor is not in motion, a duration of said sampling in said first hands-off test being greater than a duration of said sampling in said second hands-off test; and calibrates said input parameter signal when a hands-off condition is detected.
2. The calibrating module of claim 1 , wherein said controller comprises: an identifying module for identifying said first and second periods.
3. The calibrating module of claim 2 , wherein said identifying module inputs said input parameter signal from a force sensor, and wherein said calibrating module outputs a calibrated input parameter signal to an output module.
4. The calibrating module of claim 3 , wherein said input parameter signal comprises an input parameter signal detected during a period when a pointing stick connected to said force sensor is untouched by a user.
5. The calibrating module of claim 2 , wherein said controller further comprises: an output module which outputs a cursor movement signal based on said calibrated input parameter signal, wherein a transfer function for generating said cursor movement signal comprises a dead band within which said cursor movement signal causes no cursor movement for a non-zero input parameter signal.
6. The calibrating module of claim 1 , wherein said calibrating module calibrates said input parameter signal only when said hands-off condition is detected.
7. The calibrating module of claim 1 , wherein said calibrating module calibrates a significant input parameter signal by identifying an input parameter signal detected during said hands-off condition as having a zero value, relative to which said significant input parameter signal is measured.
8. The calibrating module of claim 1 , wherein said input parameter signal is calibrated to inhibit a cursor drift.
9. The calibrating module of claim 1 , wherein said first hands-off test comprises a duration of at least about 5 seconds, and said second hands-off test comprises no more than about 0.53 seconds.
10. The calibrating module of claim 1 , wherein said controller is included in a pointing stick system, and said input parameter signal measures a force applied to a point stick in said pointing stick system.
11. A cursor control system, comprising: a force sensor which generates an input parameter signal; and a controller operably coupled to said force sensor, comprising: a calibrating module which: detects a hands-off condition by sampling said input parameter signal using a first hands-off test during a first period when a cursor is in motion, and sampling said input parameter signal using a second hands-off test which is different than said first hands-off test, during a second period when said cursor is not in motion, a duration of said sampling in said first hands-off test being greater than a duration of said sampling in said second hands-off test; and calibrates said input parameter signal when a hands-off condition is detected.
12. The cursor control system according to claim 11 , further comprising: an output module which receives a calibrated input parameter signal from said calibrating module and outputs a cursor movement signal based on said calibrated input parameter signal.
13. The cursor control system according to claim 11 , wherein said force sensor comprises a pointing device which is integrally-formed in a keyboard assembly.
14. The cursor control system according to claim 11 , wherein said first hands-off test comprises a duration of at least about 5 seconds, and said second hands-off test comprises no more than about 1 second.
15. The cursor control system according to claim 11 , wherein said first hands-off test comprises a duration in a range from 5 seconds to 10 seconds with a precision of 0.8 grams.
16. A keyboard assembly comprising the cursor control system according to claim 11 , wherein said force sensor comprises a pointing device which is integrally formed in a keyboard.
17. A computer system, comprising a keyboard assembly comprising the cursor control system according to claim 11 ; and a display device for displaying a cursor controlled by said cursor control system.
18. A method of calibrating an input parameter signal in a cursor control system, comprising: detecting a hands-off condition by sampling an input parameter signal using a first hands-off test during a first period when a cursor is in motion, and sampling the input parameter signal using a second hands-off test which is different than said first hands-off test, during a second period when said cursor is not in motion, a duration of said sampling in said first hands-off test being greater than a duration of said sampling in said second hands-off test; and calibrating said input parameter signal when a hands-off condition is detected.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
August 21, 2008
February 21, 2012
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